U.S. patent application number 11/900275 was filed with the patent office on 2008-02-21 for two-piece side and floor panel arrangement for box assembly.
This patent application is currently assigned to Pullman Industries, Inc.. Invention is credited to Edward J. Engler, Frank G. McNulty, D. James Zimmerman.
Application Number | 20080042469 11/900275 |
Document ID | / |
Family ID | 46205546 |
Filed Date | 2008-02-21 |
United States Patent
Application |
20080042469 |
Kind Code |
A1 |
McNulty; Frank G. ; et
al. |
February 21, 2008 |
Two-piece side and floor panel arrangement for box assembly
Abstract
A vehicle box assembly wherein a bed floor and the inner right
and left side wall panels are defined by and assembled from two
monolithic one-piece integrated side/floor panel members. The two
panel members are preferably formed by roll forming a thin metal
sheet so that only a single roll-formed panel configuration is
required. Subsequent forming operations, such as punching or die
forming, are carried out on the roll-formed configuration to create
right and left panel members which are assembled to define the
floor and opposed inner side panels of the box assembly.
Inventors: |
McNulty; Frank G.;
(Rochester Hills, MI) ; Zimmerman; D. James;
(Grosse Ile, MI) ; Engler; Edward J.; (Farmington
Hills, MI) |
Correspondence
Address: |
FLYNN THIEL BOUTELL & TANIS, P.C.
2026 RAMBLING ROAD
KALAMAZOO
MI
49008-1631
US
|
Assignee: |
Pullman Industries, Inc.
|
Family ID: |
46205546 |
Appl. No.: |
11/900275 |
Filed: |
September 11, 2007 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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11105330 |
Apr 13, 2005 |
7275784 |
|
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11900275 |
Sep 11, 2007 |
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60561803 |
Apr 13, 2004 |
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Current U.S.
Class: |
296/183.1 |
Current CPC
Class: |
Y10T 29/49622 20150115;
Y10T 29/49906 20150115; B62D 33/023 20130101; B62D 33/02 20130101;
Y10T 29/49629 20150115 |
Class at
Publication: |
296/183.1 |
International
Class: |
B62D 33/02 20060101
B62D033/02 |
Claims
1. A process for forming a bed assembly for a pickup truck, the bed
assembly including a generally horizontally large floor panel and
right and left upright inner side panels extending along and
protruding upwardly from opposite lengthwise-extending side edges
of said floor panel, comprising the steps of: (a) providing a
generally flat but wide, thin metal sheet; (b) providing a rolling
mill having a plurality of rolling stages for reshaping the sheet;
(c) feeding the flat sheet longitudinally into and through the
rolling mill to effect reshaping of the sheet in transverse cross
section, said reshaping including (i) roll forming a first portion
of the sheet, as defined adjacent and extending along one
longitudinally extending edge thereof, to define a transverse
flange which defines a top rail of one said inner side panel, and
(ii) roll forming a second portion of the sheet, as defined
sidewardly adjacent the first portion, to define a floor panel
section having a plurality of sidewardly spaced but generally
parallel ribs extending longitudinally of the sheet; (d) forming a
wheel well opening through said sheet at a location so that the
opening is defined partially in each of said first and second
portions; (e) transversely bending said sheet generally along a
lengthwise-extending region defined between said first and second
portions so that said first portion protrudes substantially
perpendicularly relative to said second portion; (f) forming a
generally flat edge flange along the other longitudinally extending
edge of said sheet so that said flat edge flange protrudes
substantially perpendicularly relative to said floor panel section
and protrudes in an opposite direction from the first portion of
said sheet; (g) transversely severing the sheet across the width
thereof to define a defined length panel member; (h) defining a
first monolithic one-piece bed member by carrying out steps (a)
through (g) above; (i) defining a second monolithic one-piece bed
member by carrying out steps (a) through (g) above; (j) positioning
said first and second bed member in opposed and facing relationship
so that the floor panel sections are in horizontally adjacent
side-by-side relation with the flat edge flanges thereof being in
opposed abutting engagement and protruding downwardly; (k) fixedly
positioning said first and second bed members in said opposed and
facing relationship, on top of a plurality of transversely
extending cross rails; and (l) fixedly securing said edge flanges
together.
2. A process according to claim 1, including the step of: providing
first and second wheel well housings, and fixedly securing the
first and second wheel well housings to the respective first and
second bed members along the edge of the opening as defined in the
respective first and second portions.
3. A process according to claim 1, including the step of: forming
each of said first and second bed members so that they are
substantially mirror images of one another.
4. A process according to claim 3, wherein the sheet is
transversely severed prior to (1) forming of the wheel well
openings and (2) transverse bending the sheet.
5. A process according to claim 4, wherein the sheet is
transversely severed after exiting the rolling mill.
6. A process according to claim 4, wherein the openings are formed
in the bed members prior to the transverse bending thereof.
7. A process according to claim 1, including the step of providing
the sheet having a width which permits only a single said bed
member to be roll-formed within the width thereof.
8. A process according to claim 7, including the steps of
transversely severing the sheet upon discharge from the rolling
mill; then forming said openings in the roll-formed sheets to
define right and left said panel members; and then transversely
bending said right and left panel members.
9. A process according to claim 1, including the steps of: forming
aligned cut-like notches which extend inwardly from opposite edges
of the sheet at defined spaces in the lengthwise direction of the
sheet, prior to the sheet being longitudinally roll-formed; and
transversely severing the sheet generally between the aligned
notches after the sheet has been reshaped during passage thereof
through the rolling mill.
10. A process according to claim 1, wherein the flange formed along
the edge of the first portion of the sheet has a channel-shaped
cross section.
11. A process for forming a bed assembly for a pickup truck, the
bed assembly including a generally horizontally large floor panel
and right and left upright inner side panels extending along and
protruding upwardly from opposite lengthwise-extending side edges
of said floor panel, comprising the steps of: (a) feeding a
generally flat, wide, thin metal sheet longitudinally into and
through a rolling mill to effect reshaping of the sheet in
transverse cross section, said reshaping including (i) defining a
first portion of the sheet adjacent and extending along one
longitudinally extending edge thereof, and (ii) roll forming a
second portion of the sheet, as defined sidewardly adjacent the
first portion, to define a floor panel section having a plurality
of sidewardly spaced but generally parallel ribs extending
longitudinally of the sheet; (b) forming a wheel well opening
through said sheet at a location so that the opening is defined
partially in each of said first and second portions; (c)
transversely bending said sheet generally along a
lengthwise-extending region defined between said first and second
portions so that said first portion protrudes substantially
perpendicularly relative to said second portion; (d) forming a
generally flat edge flange along the other longitudinally extending
edge of said sheet; (e) transversely severing the sheet across the
width thereof to define a defined length panel member; (f) defining
a first monolithic one-piece bed member by carrying out steps (a)
through (e) above; (g) defining a second monolithic one-piece bed
member by carrying out steps (a) through (e) above; (h) positioning
said first and second bed member in opposed and facing relationship
so that the floor panel sections are in horizontally adjacent
side-by-side relation with the flat edge flanges thereof being in
overlapping abutting engagement; (i) fixedly positioning said first
and second bed members, in said opposed and facing relationship, on
top of a plurality of transversely extending cross rails; and (j)
fixedly securing said edge flanges together.
12. A process according to claim 11, wherein the reshaping of the
metal sheet as it is fed through the rolling mill includes roll
forming a transversely protruding edge flange lengthwise along said
one longitudinally extending edge for defining a top rail of the
inner side panel.
13. A process according to claim 11, including the step of:
providing first and second wheel well housings, and fixedly
securing the first and second wheel well housings to the respective
first and second bed members along the edge of the opening as
defined in the respective first and second portions.
14. A process according to claim 13, including the steps of
transversely severing the sheet upon discharge from the rolling
mill; then forming said openings in the roll-formed sheets to
define right and left said panel members; and then transversely
bending said right and left panel members.
15. In a vehicle box assembly for a pickup truck, said box assembly
having a horizontal floor, and right and left upright inner side
panels joined to and projecting upwardly adjacent opposite
lengthwise-extending side edges of said floor, comprising the
improvement wherein said floor and inner side panels are, in their
entirety, defined by two similar one-piece L-shaped roll-formed
panel members each defining one of said inner side panels and a
floor panel section integrally and monolithically joined to the
respective inner side panel and extending generally perpendicularly
therefrom, each of the L-shaped roll-formed panel members having a
plurality of sidewardly-spaced channel-shaped roll-formed ribs
therein and extending lengthwise throughout the longitudinal length
thereof, the floor panel sections of said two L-shaped panel
members each having a lengthwise extending edge part which extends
throughout the lengthwise extent of the floor and which defines a
lengthwise extending free edge, said edge parts being disposed in
sideward abutting engagement and fixedly welded together, each
L-shaped roll-formed panel member having a wheel well opening
formed therethrough at a location intermediate the ends thereof,
said wheel well opening being formed partially in the upright inner
side panel and partially in the respective floor panel section but
being spaced sidewardly from a lengthwise-extending upper extremity
of the inner side panel and the free edge of the respective floor
section.
16. A box assembly according to claim 15, wherein the two L-shaped
panel members are substantially mirror images of one another and
are formed from substantially identical roll-formed panels.
17. A box assembly according to claim 16, wherein said edge parts
are down-turned flanges which extend substantially along the
longitudinal centerline of the floor.
18. A vehicle box assembly according to claim 17, wherein an upper
edge of each upright inner side panel has a roll-formed
channel-shaped reinforcing rail extending lengthwise
therealong.
19. A vehicle box assembly according to claim 15, wherein each said
upright inner side panel has a roll-formed horizontal shelf
extending lengthwise throughout the longitudinal length thereof at
an elevation located between the upper extremity of the upright
inner side panel and an upper extremity of the respective wheel
well opening.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This is a continuing application of our co-pending
application Ser. No. 11/105,330, filed Apr. 13, 2005, herein
incorporated by reference, which further claims the benefit of U.S.
provisional application No. 60/561,803, filed Apr. 13, 2004.
FIELD OF THE INVENTION
[0002] This invention relates to a box assembly for a vehicle, such
as a pickup truck, and more specifically to an improved
construction of a vehicle box assembly employing roll-formed
panels, and to the method of constructing the panels.
BACKGROUND OF THE INVENTION
[0003] The upwardly-opening box assembly associated with vehicles
such as pickup trucks and the like have, for many years, employed a
large plurality of stamped metal panels for defining the box. For
example, in most instances the inner front and side panels of the
box are stamped sheet steel members, and in most instances the bed
of the box is also defined by one or more stamped sheetlike steel
panels. Forming the box predominantly from stamped sheet steel
panels, however, results in structural and economic factors which
are less than desirable.
[0004] A principal disadvantage associated with using stamped sheet
steel panels is the fact that such panels require use of a greater
quantity of material than is optimally desired, and also ultimately
results in the formed members having greater weight than desired,
both of which are undesirable from the standpoint of the overall
vehicle. More specifically, it is known that stamping involves
forming a three-dimensional shape from a flat sheet steel of rather
thin gauge, and during stamping the three-dimensional deformation
of the sheet steel necessarily causes stretching of the steel,
particularly at those locations which are subjected to the greatest
three-dimensional deformation. This stretching can typically be in
the range of from 8% to 10%, and the net effect is that the
thickness of the sheet steel at the stretched locations can be
significantly reduced by this degree. Such significant thickness
reduction hence results in areas of the sheet being of
significantly reduced strength, and hence these reduced strength
areas can dictate and control the design of the overall stamped
part, thereby requiring initial use of a sheet thickness greater
than would otherwise be required so as to compensate for the
thickness reduction caused by stretching.
[0005] Stamping large sheets to define large three-dimensional
panels, such as for a vehicle box assembly, also often results in
undesired surface stretch marks or blemishes in the finished
product. The stamping operation also typically requires that the
sheet be significantly oversized relative to the finished product
so as to permit trimming of the sheet around the entire peripheral
edge of the finished stamped member, and this hence results in
significant waste.
[0006] A further and significantly disadvantageous factor
associated with use of stamped sheet steel panels for vehicle box
assemblies is the cost associated with the manufacture of the
required stamping tools, and the significant number of such tools
required to form the different stamped panels. Since the stamped
panels defining the front and side walls of the box assembly, as
well as the bed, are all of rather large size, the stamping tool
required to form a single panel is necessarily large and complex,
and hence extremely costly to manufacture. The complexity
associated with such tooling is further increased by the fact that
the side and front panels typically have reinforcing channels
formed along the upper edges thereof, which channels define either
inverted U-shaped configurations or sometimes even a closed hollow
channel, whereby the stamping tooling for such shapes involves
multiple stamping steps and hence is complex and expensive.
[0007] The cost of the stamping tooling is further exacerbated by
the fact that each stamped part requires its own customized
stamping tooling. For example, the front panel, the right side
panel and the left side panel of the bed assembly all require their
own customized tooling. Further, different tooling must be provided
to permit manufacture of the right and left side panels for each
different bed length. Needless to say, the overall net effect is
that the tooling is not only extremely costly, but the tooling also
requires significant floor space in the factory, and additional
labor for operation thereof.
[0008] Several currently known constructions for vehicle box
assemblies employing a significant number of stamped sheet steel
panels are illustrated by FIGS. 1-4. In FIG. 1, a box assembly 10
as associated with a pickup truck employs right and left upright
inner side panels 11 and 12, respectively, joined to an upright
inner front panel 13. The bottom of the box assembly is closed by a
generally horizontal bed 14 which, in this conventional
construction, employs a multiple-piece construction defined
predominantly by a center bed panel 15 which extends throughout the
full length of the bed and has a width which generally corresponds
to the transverse width between the wheel well openings. The bed
regions forwardly and rearwardly of the wheel well openings are
defined by separate small bed panel sections 16 and 17 which are
rigidly joined, as by welding, to the center bed panel 15 and to
the adjacent upright side panels. The rear of the bed assembly
defines a conventional access opening which, in a known manner, is
closed by a swingable tailgate. In this known construction of the
bed assembly, each of the front panel, right side panel, left side
panel and bed are formed as stamped steel sheet members, all
different, and in fact the bed in this example is formed by a
plurality (here five) of stamped members. The wheel well covers 18,
which are also typically separate stampings, are welded to the
respective side panel and to the bed during the assembly process. A
box assembly having constructional features similar to that
illustrated by FIG. 1 hence employs a large number of different
stamped members, and accordingly requires large investment in
tooling as well as significant factory space for production and
assembly of such construction.
[0009] FIG. 2 illustrates another known construction of a box
assembly which is virtually identical to the box assembly of FIG. 1
described above, except that the bed 14' in FIG. 2 is constructed
as a one-piece stamped panel having wheel well openings formed in
opposite sides thereof, typically by means of a separate stamping
operation, thereby eliminating the need for separate side bed
panels. The construction of the box assembly of FIG. 2 is in all
other respects generally similar to that illustrated by FIG. 1, and
hence possesses generally the same structural and cost
disadvantages.
[0010] Referring now to FIG. 3, there is illustrated improvements
with respect to a box assembly for a pickup truck, which
improvements are illustrated in greater detail in U.S. Pat. No.
6,644,721, owned by the Assignee hereof. The box assembly
illustrated in FIG. 3 is constructed generally the same as the box
assembly shown in FIG. 1 except that the center floor pan 15 in
FIG. 3 is constructed as a one-piece roll-formed member which
provides improved performance and weight reduction.
[0011] Considering also the box assembly illustrated in FIG. 4,
this depicts another improved construction of the box assembly
developed by the Assignee hereof. This improved box construction
generally corresponds to the box construction of FIG. 2 except that
the full-sized bed member 14' is constructed as a roll-formed
member, rather than as a stamped member. This roll-formed
construction of the one-piece bed member, as disclosed in greater
detail in Assignee's U.S. Pat. No. 6,128,815, has been successfully
commercially adopted and is currently in use on models of pickup
trucks currently being sold.
[0012] As a known alternative construction for the box assembly
illustrated by FIG. 1, the side panel, the adjacent wheel well
cover and adjacent front and rear side bed panels can be formed as
a one-piece stamping, a different such stamping being required for
each of the right and left sides of the box assembly. Such
stamping, however, due to its size and complex three-dimensional
shape, requires complex and costly tooling.
[0013] Accordingly, it is an object of this invention to provide
improved roll-formed component parts for a box assembly, such as a
roll-formed front panel and/or roll-formed side panels and/or a
roll-formed bed panel, which component parts provide improved
characteristics with respect to construction, assembly and cost
efficiencies with respect to materials, assembly and tooling, and
which at the same time retain or provide improved performance
characteristics with respect to the assembled box assembly.
[0014] More specifically, the improved roll-formed components of
the present invention are believed to provide the assembled box
assembly with improvements with respect to reduction in overall
weight, reduction with respect to overall usage of material,
reduction with respect to material cost, simplification with
respect to required assembly, handling and manipulation,
significant reduction with respect to tooling costs, and an ability
to utilize the same tooling to facilitate manufacture of multiple
or different sized parts.
[0015] According to the present invention, in one embodiment
thereof, there is provided an improved front panel for a vehicle
bed assembly, which front panel is defined by a monolithic
one-piece roll-formed steel sheet member having a desired
three-dimensional configuration. The sheet steel member is
roll-formed in the lengthwise direction thereof, which direction
extends transversely across the front of the box assembly. The
front panel has a roll-formed channel, preferably a closed tubular
channel, extending along the upper edge thereof, which channel is
roll-formed along one edge of the sheet steel during forming of the
front panel. This closed tubular edge rail is preferably closed by
a seam weld which extends lengthwise therealong, which seam weld
can be efficiently performed simultaneous with and directly
downstream of the roll-forming operation.
[0016] The improved roll-formed front panel, as aforesaid, is
preferably provided with a generally flat ledge or shelf deformed
horizontally from the upright front panel so as to extend
transversely across the front of the box assembly.
[0017] This shelf is preferably disposed downwardly a small
distance from the top rail, but is also positioned upwardly a
substantial distance from the lower edge of the front panel,
whereby the shelf can be successfully utilized to provide
additional functions associated with use of the vehicle box
assembly, such as accommodating the edge of a cover or divider
platform.
[0018] The improved front panel, as aforesaid, is also preferably
provided with one or more reinforcing ribs roll-formed therein and
extending lengthwise thereof so as to provide the front panel with
desired strength and rigidity while permitting usage of minimal
thickness sheet steel.
[0019] As a desired variation, the improved roll-formed front
panel, as aforesaid, can be provided with a front bed-supporting
cross rail integrally and monolithically joined to the front panel
along a lower horizontally extending edge thereof. The front panel
and cross rail are formed as a continuous and monolithic one-piece
member by being formed during a continuous roll-forming operation,
with the cross rail being formed either generally planar with or in
perpendicular relationship to the front panel during the
roll-forming operation, with a 90.degree. bend between the front
panel and cross rail being formed either during the roll-forming
operation or by means of a subsequent bending operation. The
resultant monolithic one-piece construction eliminates the
requirement that a wholly separate front cross rail be manufactured
and handled, and also eliminates the necessity of having to create
a series of spot welds between a lower flange on the front panel
and a downwardly-turned front flange on the cross rail, the latter
being a conventional construction.
[0020] This invention, as it relates to the front panel, also
provides an improved manufacturing process for the front panel by
permitting roll-forming of the front panel so as to facilitate
forming of front panels of different lengths, by facilitating the
simultaneous roll-forming of a closed rail or channel extending
along the upper edge thereof, by facilitating seam welding of the
top rail as it is formed on the roll former, prior to the panel
being cut to length, and by facilitating the ability to integrally
roll-form a front bed-supporting cross rail as part of the front
panel.
[0021] The present invention, according to a second embodiment,
relates to an improved inner side panel for a vehicle box assembly.
The inner side panel is a monolithic one-piece member which is
roll-formed in the lengthwise direction thereof, and is provided
with a roll-formed channel extending along the upper edge. The
channel may, if desired, be a closed tubular channel and may be
seam welded along the length thereof. The roll-formed side panel is
also preferably provided with a generally flat horizontal shelf
roll-formed lengthwise thereof at a location spaced downwardly a
small distance from the top rail. This shelf provides numerous
possible functions, such as by permitting two-by-fours or the like
to be supported thereon so as to span across the box assembly in
raised relationship from the bed, or by permitting a tonneau cover
to be attached thereto in downwardly spaced relation from the
exposed top rail, or by permitting a removable platform or shelf to
be supported on and extended between the shelves defined on the
opposed inner side panels.
[0022] The side panel is also preferably provided with ribs or
channels roll-formed therein longitudinally throughout the length
thereof to provide improved strength and rigidity, and hence permit
use of minimal thickness sheet steel.
[0023] The improved roll-formed side panel of the present
invention, as aforesaid, can be cut to any desired length during
the roll-forming operation so that the same roll-forming tooling
can readily accommodate side panels of different lengths. Further,
by forming wheel well openings in the side panels utilizing
separate stamping tooling which act on the side panels after the
panels have been cut to length, the same roll-forming line can be
used to form not only side panels of different lengths, but can
also be used to form both the right and left side panels.
[0024] The improved roll-formed inner side panel of the present
invention, as aforesaid, in accordance with a variation thereof,
can be integrally and monolithically formed with an adjacent
portion of the floor or bed, namely that portion which defines the
wheel well opening. The bed portion and side wall panel can be
substantially simultaneously roll-formed to define an integral and
monolithic one-piece construction, and the forming of the wheel
well opening and the bending of the floor portion relative to the
side wall panel can be performed after the one-piece roll-formed
construction is cut to length. Alternately, the forming of the
opening and the subsequent bending of the floor portion relative to
the side panel can be carried out in sequence during the
roll-forming, prior to the cut-to-length operation.
[0025] The invention also relates to an improved manufacturing
process for forming a side panel for a vehicle box which, as
discussed above, is roll-formed to facilitate the forming of a top
rail, a horizontal shelf and reinforcing ribs extending lengthwise
of the roll-formed panel, to facilitate cutting of the roll-formed
panel into any desired length, and to permit the same roll-formed
tooling to be utilized for both right and left side panels as well
as panels of different lengths. The process also permits
simultaneous forming of multiple side panels, such as roll forming
a pair of side panels in side-by-side relationship so as to be
effectively mirror images of one another, thereby simultaneously
providing right and left panels and at the same time facilitating
the simultaneous stamping of the wheel well openings therein and
the forming of the top rails thereon, which top rails are disposed
along the outer edges of the roll-formed sheet, with the
roll-formed sheet being split lengthwise thereof to facilitate the
simultaneous forming of side-by-side panels.
[0026] The present invention, according to a further embodiment,
comprises a monolithic, one-piece roll-formed center floor pan for
disposition between the wheel wells of a vehicle box assembly. The
improved floor pan has roll-formed raised channels of partial width
extending along opposite side edges thereof, which raised partial
channels have perpendicularly projecting edge flanges which
protrude downwardly by an extent which significantly exceeds the
height of the channels formed in the bed member. The edge flanges
on the center floor pan abut and are welded to edge flanges
associated with side panels which fill the regions disposed
forwardly and rearwardly of the wheel well openings. The edge
flanges on the center floor pan, at regions corresponding to the
supporting cross rails, have recesses opening upwardly over part of
the height thereof to accommodate the cross rails while still
providing partial reinforcement in the regions of the floor pan
disposed directly over the cross rails, thereby eliminating the
need to provide deformations or recesses in the cross rail.
[0027] According to the present invention, there is provided an
improved box assembly for a vehicle, such as a pickup truck, which
box assembly employs a roll-formed bed or pan, as well as a
roll-formed front panel as briefly summarized above, and which may
additionally employ a roll-formed inner side panel, as also briefly
described above. The roll-forming of the large panel members
associated with the box assembly permits minimal usage of material
in terms of both square footage of material as well as material
thickness, thereby minimizing cost and weight of the box assembly,
and results in panels of substantially uniform thickness throughout
the longitudinal transverse directions thereof.
[0028] The use of roll-formed panels is also desirable since it
permits the panels to be formed from high strength steel if
desired, specifically sheet steel having a yield strength in the
range of from about 50,000 psi to about 100,000 psi, which high
strength steel is typically not feasible for use with large stamped
panels.
[0029] Other objects and purposes of the invention will be apparent
to those familiar with constructions and processes similar to those
described herein upon reading the following specification and
inspecting the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
[0030] FIG. 1 is a top plan view of a conventional pickup truck box
assembly which illustrates a first conventional construction of the
assembly.
[0031] FIG. 2 is a top plan view similar to FIG. 1 but illustrating
a second conventional construction of the box assembly.
[0032] FIG. 3 is an exploded view of a box assembly corresponding
generally to FIG. 1 but illustrating a known variation of the bed
assembly.
[0033] FIG. 4 is an exploded perspective view illustrating the box
assembly of FIG. 2 but illustrating a known variation of the bed
assembly.
[0034] FIG. 5 is an exploded perspective view showing parts
associated with an improved vehicle box assembly constructed in
accordance with a first embodiment of the present invention.
[0035] FIG. 6 is a fragmentary perspective view showing the parts
of FIG. 5 in an assembled condition.
[0036] FIG. 7 is an enlarged perspective view of the upright front
panel associated with the box assembly of FIGS. 5-6.
[0037] FIG. 8 is a cross-sectional view of the front panel as taken
generally along line 8-8 in FIG. 7.
[0038] FIG. 9 is a flow diagram which diagrammatically illustrates
the forming equipment and process utilized for roll-forming of a
panel for a vehicle box assembly according to the present
invention, which panel for example may comprise a front panel or a
side panel.
[0039] FIG. 10 is a flow diagram similar to FIG. 9, but which
diagrammatically illustrates the simultaneous forming of two panels
in side-by-side and mirror-image relationship, such as two side
panels or two front panels, as the sheet steel is fed downstream
along the roll forming line.
[0040] FIG. 11 is a perspective view similar to FIG. 7 but
illustrating a modification of the upright front panel wherein the
latter has the front cross rail integrally and monolithically
roll-formed therewith.
[0041] FIG. 12 is a cross-sectional view taken generally along line
12-12 in FIG. 11.
[0042] FIG. 13 is a further flow diagram similar to FIG. 9 but
which diagrammatically illustrates a variation wherein the
roll-formed panel has a significant lengthwise-extending part
thereof rolled or formed upwardly in substantially perpendicular
relationship to the main portion of the roll-formed panel, such as
for forming a front panel of the type illustrated by FIG. 11 or an
integrated side/floor panel of the type illustrated by FIG. 22.
[0043] FIG. 14 is a perspective view of the upright side panel
associated with the box assembly of FIGS. 5-6.
[0044] FIG. 15 is a cross-sectional view taken generally along the
line 15-15 in FIG. 14.
[0045] FIG. 15A is a sectional view corresponding to FIG. 15 but
showing variations in the construction of the side panel.
[0046] FIG. 16 is a further flow diagram which diagrammatically
illustrates the roll-forming of two side-by-side and mirror-image
side panels from a single width of steel sheet, including the
forming of the wheel well openings and the slitting of the sheet to
define the two side-by-side panels.
[0047] FIG. 17 is an exploded perspective view showing individual
parts associated with an improved vehicle box assembly according to
a second embodiment of the invention.
[0048] FIG. 18 is a fragmentary perspective view illustrating the
parts of FIG. 17 in the assembled condition.
[0049] FIG. 19 is a fragmentary perspective view illustrating
improvements associated with the center floor pan which can be
utilized in conjunction with the embodiments of FIGS. 17-18 and
FIG. 22.
[0050] FIG. 20 is a fragmentary end elevational view illustrating
the manner in which the roll-formed center pan of FIG. 19
cooperates with a side pan or bed member.
[0051] FIG. 21 is a fragmentary perspective view, taken generally
from one edge and viewed from below, of the bed arrangement
illustrated in FIGS. 19-20.
[0052] FIG. 22 is an exploded perspective view showing the parts
associated with a vehicle box assembly according to a third
embodiment of the invention.
[0053] FIG. 23 is a flowchart which illustrates a preferred method
of forming the quarter panel illustrated in FIG. 22.
[0054] FIG. 24 is an enlarged cross-sectional view of the roll
formed sheet as taken generally along line 24-24 in FIG. 23.
[0055] FIG. 25 illustrates solely the center portion of the
deformed sheet as shown in FIG. 24.
[0056] FIG. 26 illustrates solely the center portion of the
deformed sheet shown in FIG. 24 but illustrating a variation
thereof.
[0057] FIG. 27 is a vertical transverse sectional view showing the
inner side panels and floor of a vehicle box assembly according to
a further embodiment of the invention, and illustrating the
construction thereof solely by a pair of integrated panel
members.
[0058] FIG. 28 is a cross sectional view of one of the panel
members of FIG. 27 as shown in a nonfolded condition when exiting a
rolling mill.
[0059] FIG. 29 shows the panel member of FIG. 28 in its folded
L-shaped cross-sectional configuration.
[0060] FIG. 30 is a perspective view of the folded panel member as
used to construct the box assembly of FIG. 27.
[0061] FIGS. 31 and 32 contain a flow chart which diagrammatically
illustrates a process for roll-forming a panel, and subsequent
processing to effect forming of the panel member of FIGS.
27-30.
[0062] Certain terminology will be used in the following
description for convenience in reference only, and will not be
limiting. For example, the words "upwardly", "downwardly",
"rightwardly" and "leftwardly" will refer to directions in the
drawings to which reference is made. The words "upwardly" and
"downwardly" will also be used in reference to the surfaces or
parts associated with the box assembly which respectively project
upwardly or downwardly when the box assembly is in its normal
assembled position on a vehicle. The words "front" and "rear" will
be used with reference to those directions which normally connotate
the front and rear of a vehicle when the box assembly is mounted
thereon. The words "inwardly" and "outwardly" will refer to
directions toward and away from, respectively, the geometric center
of the box assembly, or designated parts thereof. Said terminology
will include the words specifically mentioned, derivatives thereof,
and words of similar import.
DETAILED DESCRIPTION
[0063] Referring to FIGS. 5 and 6, there is illustrated a first
embodiment of an improved vehicle box assembly 21, specifically a
box assembly for a pickup truck, according to the present
invention.
[0064] The box assembly 21 includes a bed or floor pan arrangement
22 which is supported on a plurality of support or cross rails
extending transversely thereunder, including a front cross rail 23
disposed adjacent the forward end of the floor, one or more
generally parallel intermediate cross rails 24 disposed in
rearwardly spaced but generally parallel relationship beneath the
floor, and a rear cross rail 25 which supportingly engages the
floor beneath the rear edge thereof. An inner upright front panel
26 projects upwardly from the floor adjacent the front end of the
box assembly, and opposed right and left inner upright side panels
27 project upwardly from opposite sides of the floor and have their
forward edges rigidly joined to opposite ends of the front panel
26. Only the right side panel is illustrated in FIGS. 5 and 6, the
left side panel being omitted for clarity of illustration, but it
will be understood that the left side panel is typically
substantially a mirror image of the right side panel. The floor 22
and side wall panels 27 are each rigidly joined by a hollow
three-dimensional wheel well cover or housing 28 which around the
edge thereof is fixedly joined to both the side panel 27 and the
floor 22 so as to isolate the rear wheel of the vehicle from the
interior of the box assembly. Each upright side panel or wall 27
also has a rear post or upright 29 associated with the rear edge
thereof to provide structural reinforcement. The rear post provides
a structural connection between the inner side panel 27 and the
outer skin of the vehicle, and also provides strength to permit
support for a conventional rear tailgate as associated with the box
assembly.
[0065] The construction of the significant panel components of the
box assembly 21 will be described hereinafter.
[0066] Referring first to the bed or floor 22, it is preferably
constructed as a monolithic one-piece roll-formed member having a
series of reinforcing channels or ribs which project upwardly from
the sheet and extend lengthwise so as to terminate substantially
adjacent the front and rear edges of the bed, with the channels
being spaced apart in the sideward or transverse direction of the
bed member. The bed member 22 in this embodiment extends the full
width of the box assembly so that the side edges of the bed member
terminate directly adjacent the side panels 27, and the side edges
of the bed member have wheel well openings 31 formed therein to
accommodate the rear vehicle wheels, which wheel well openings are
enclosed by the conventional wheel well covers 28, the latter
typically being of a stamped construction. The rear edge of the bed
22 cooperates with the rear cross rail 25 which, in a preferred
construction, can be provided with a series of sidewardly spaced
upward projections which nestingly cooperate with the channels
associated with the bed so as to reinforce the rear bed edge. Use
of projections associated with the rear rail for nesting
cooperation with the rear edge of the bed is, however,
optional.
[0067] This construction of the bed 22 is explained in greater
detail in U.S. Pat. Nos. 5,188,418, 5,544,932, 5,730,486,
5,938,272, 6,128,815 and 6,170,905 all owned by the Assignee
hereof.
[0068] Considering now the upright front panel 26, and referring
specifically to FIGS. 7-8, this panel in the illustrated embodiment
includes generally flat and coplanar top and bottom wall portions
32 and 33 respectively, which are vertically oriented. The top and
bottom wall portions 32 and 33 are joined by an intermediate shelf
portion 34 which extends longitudinally (i.e. lengthwise) of the
front panel 26 in a generally horizontal orientation. This shelf
portion 34 is formed generally as a U-shaped channel which
protrudes outwardly (i.e. forwardly) away from the flat wall
portions 32-33. The U-shaped channel defining the shelf portion 34
thus opens inwardly for communication with the interior of the box,
and defines a generally horizontally-oriented bottom wall 35 which
extends lengthwise across the complete width of the front panel 27
and functions as an upwardly-facing shelf.
[0069] Front panel 26 has a reinforcing rail 36 associated with and
extending along the length of the upper edge thereof. This
reinforcing rail 36 is channel shaped and is preferably formed as a
generally closed tubular cross section defined by a top wall 37
which in the illustrated embodiment projects outwardly from the
front panel 32, which top wall 37 is bent downwardly to define an
outer wall 38 which is generally parallel with but spaced
rearwardly from the front panel 32, and the outer wall 38 in turn
joins to a bottom wall 39 which slopes downwardly toward the front
panel 32. The bottom wall 39 terminates in an edge flange 41 which
contacts and overlies the front panel 32 and is fixedly secured
thereto, as by welding. In accordance with the present invention, a
seam weld is preferably provided to fixedly join the flange 41 to
the front wall 32, which seam weld extends lengthwise of the
reinforcing rail 36 along the complete width of the front panel
26.
[0070] The lower wall portion 33 of the front panel 26 is
preferably provided with a plurality, here three, of reinforcing
channels or ribs or beads 42 formed therein, which ribs 42 are
disposed in parallel and generally vertically spaced relationship,
and are elongated horizontally so as to extend across the complete
width of the front panel. The lower free edge 43 of the front panel
26, as defined by the lower edge of the lower wall portion 33, is
disposed so as to be positioned slightly below the elevation of the
bed 22 when the box assembly is assembled, whereby the lower part
of the wall portion 33, adjacent the free edge 43, defines a flange
49 which overlaps and abuts against a down-turned flange 46
associated with the front cross rail 23. The latter has in the
illustrated embodiment a hat-shaped cross section 48 which includes
generally horizontal top flanges, the front flange 47 of which has
the downturned flange 46 associated with the front edge thereof.
The abutting and overlapping flanges 46 and 49, which extend across
the width of the box, are suitably fixedly joined, preferably by
welding, such as by a series of spot welds or by a seam weld
extending lengthwise along the flanges.
[0071] With the arrangement illustrated by FIG. 8, the bed 22 is
positioned on top of and fixedly secured, as by spot welding, to
the flanges of the cross rail 23, and the front edge of the bed 22
can be positioned substantially to abut the front panel 26, with
the area of contact therebetween being appropriately sealed in a
conventional manner.
[0072] The front panel 26 of this invention is formed as a
monolithic one-piece member which is roll-formed from sheet metal,
preferably sheet steel, with the roll-forming of the front panel 26
occurring in the lengthwise direction thereof as illustrated in
FIG. 7, which lengthwise direction extends generally horizontally
in the widthwise or transverse direction of the assembled box
assembly. The roll-forming of the front panel 26 enables the
forming of the shelf portion 34, the reinforcing channels 42 and
the closed tubular top rail 38, as well as the longitudinal seam
welding of the top rail 38, to be easily and efficiently carried
out as the sheet steel is being fed into and through a roll-forming
line, prior to the individual front panels 26 being cut to the
desired length.
[0073] The roll-forming of the front panel 26 is diagrammatically
illustrated in FIG. 9. The steel sheet is normally supplied in the
form of a large coil 51 as provided on a coil feed rack 52 which
can be positioned adjacent a cradle 53 onto which the coil 52 can
be transferred for support during the manufacturing operation. The
cradle 53 has conventional structure associated therewith to effect
straightening of the sheet material as it is discharged therefrom
in the form of a substantially continuous metal sheet 54. The sheet
material is fed through a combined end shear/welder 56 which trims
the leading and trailing ends of each coil and welds the trimmed
trailing end of one coil to the leading trimmed end of the next
coil so as to permit a substantially continuous sheet 54 to be fed
into and through the subsequent manufacturing stations.
[0074] After passing through the shear/welder 56, the continuous
steel sheet 54 moves through a notcher or punch press 57 which, in
this variation of the invention, forms a small slit or notch 58
which opens transversely inwardly from one side edge 59 of the
sheet. The notches 58 are spaced apart lengthwise of the sheet 54
by a distance which generally corresponds to the desired cut length
for individual panels. The length of the notches 58 (i.e., their
transverse projection into the sheet) is selected so as to allow
the portion of the sheet extending lengthwise between adjacent
notches 58 to be subsequently roll-formed into the closed tubular
top rail 36.
[0075] After passing through the notcher 57, the continuous notched
sheet 54 progressively moves through a roll mill 61 which
progressively reforms the steel sheet so that, while the steel
sheet is substantially flat when entering the leading end of the
roll mill 61, the steel sheet is suitably formed so as to have the
finished cross section of the front panel 26 (as shown in FIG. 8)
when leaving the discharge end of the mill 61. The progressive
reforming of the steel sheet as it passes through the mill 61 is
diagrammatically illustrated by the progressive decreasing width of
the steel sheet as it moves longitudinally through the mill.
[0076] Upon leaving the roll mill 61 the continuous but deformed
steel sheet 62 has the cross section of the front panel 26
substantially as illustrated by FIG. 8, and this continuous
deformed steel sheet 62 is then fed into and through a seam welder
63 which effects creation of a continuous seam weld between the
flange 41 and the top wall panel 32 so as to effect fixed closure
of the tubular reinforcing rail 36, which rail extends along the
edge of the deformed sheet 62 between the notches 58. In this
respect the notch 58 is preferably initially sized such that the
closed or blind end of the notch 58 is positioned adjacent and
preferably just slightly past the lower free edge of the flange 41
after the reinforcing rail 36 has been roll-formed and welded in
place.
[0077] The continuous metal sheet 62 is continuously fed from the
welder 63 into and through a cut-off press 64 which cuts the
deformed steel sheet 62 at desired spaced distances corresponding
to the desired length of the finished front panel 26. In the
present illustration this distance corresponds to the spacing
between the notches 58, so that the cut-off occurs in alignment
with the notch 58. Due to prior creation of the notch 58 and its
extension through the reinforced top rail 36, the cut-off which
takes place at the press 64 hence effectively occurs only through
that portion of the deformed sheet 62 which is effectively of
single thickness, namely that portion of the front panel 26 which
extends downwardly from the flange 41 as illustrated in FIG. 8. The
individually cut roll-formed panels 26 discharged from the cut-off
press 64 can then be moved away from the press, such as by a
conveyor 65, for subsequent handling as desired.
[0078] As an alternative and preferable roll-forming method, the
present invention desirably permits a pair of identical front
panels 26 to be simultaneously roll-formed in side-by-side
relationship so as to permit more efficient and economical
manufacture. Such side-by-side roll-forming of the front panel 26
is illustrated in FIG. 10 which generally corresponds to the
process illustrated by FIG. 9, described above, except that the
coil 51 utilized in the FIG. 10 process is necessarily of greater
width so as to accommodate the simultaneous forming of two front
panels 26 positioned sidewardly adjacent one another, with the
front panels being disposed substantially as mirror images relative
to the longitudinally extending centerline of the continuous sheet
54. In addition, the notcher 57 will form virtually identical and
aligned notches 58 which project inwardly from both side edges 59
of the sheet, and the roll-former 61 will effectively progressively
effect the desired reforming of the sheet 54 in a symmetrical
manner relative to the longitudinally extending centerline of the
sheet, with the end result being that reinforcing rails 36 are
formed along the opposite sides of the sheet. Further, the seam
welder 63 is effective for creating a pair of seam welds, one
associated with each of the formed rails 36 and, after passing
through the seam welder 63, the formed sheet then passes through a
slitter 66 which, as illustrated, is disposed upstream of the
cut-off press 64. The slitter 66 creates a continuous longitudinal
cut line 67 generally along the centerline of the continuous sheet.
The longitudinally slit sheet then passes through the press 64
which effects cutting of the continuous sheet at the desired length
corresponding to the aligned pair of notches 58, and thence
discharges a pair of finished front panels 26 in a side-by-side
relationship.
[0079] It will be understood that the slitter 66 can be disposed
downstream of the cut-off press 64 to effect longitudinal slitting
of the cut-off panel member at a subsequent location or time if
desired.
[0080] Referring now to FIGS. 11-12, there is illustrated a
combined front panel and cross rail arrangement 71 which is formed
as a one-piece monolithic roll-formed construction, and which
provides a desirable replacement for the two-piece construction
illustrated by FIG. 8. More specifically, the one-piece
construction 71 includes a front panel 26 which is identical to the
panel 26 shown in FIG. 7 as described above, and which in addition
has a front cross rail 72 integrally and monolithically joined
thereto. In this respect the front cross rail 72 as illustrated has
a hat-shaped or channel-shaped cross section 73 provided with front
and rear top flanges 74 and 75, respectively, which provides
supportive contact with the underside of the floor or bed. In this
construction, however, the front edge of the front flange 74 is
integrally and monolithically joined at corner 76 to the lower edge
of the lower wall portion 33 associated with the front panel 26.
This one-piece construction 71 hence enables the conventional use
of two separate pieces (i.e., a separate front panel and a separate
front cross rail) to be replaced by a single piece, thereby
facilitating the manufacture, handling and assembly, and
accordingly improving overall box assembly economics.
[0081] The one-piece front panel/cross rail construction 71 is
preferably formed by roll-forming, and such is diagrammatically
illustrated in FIG. 13 which generally corresponds to the process
depicted in FIG. 9 described above, but which is modified so as to
permit the cross rail 72 to be roll-formed as an integral and
monolithic part of the roll-formed front panel 26.
[0082] In the arrangement diagrammatically depicted in FIG. 13, the
front panel 26 of the one-piece construction 71 is roll-formed in a
manner identical to that as described with respect to FIG. 9 above.
However, the sheet 54 as fed into and through the notcher 57 is
also provided with slots or notches 58' which open inwardly from
the opposite side edge 59', which notches 58' are longitudinally
spaced apart and generally transversely aligned with the opposed
notches 58. The notches 58' have a length which is sized so as to
compensate for the width of sheet material defining the cross rail
72. During feeding of the notched sheet 54 into and through the
roll-former 61, the roll-former effects progressive roll-forming of
the flat sheet 54 so as to create the desired configuration of the
center portion of the sheet and with the edge portions of the sheet
being suitably roll-formed so as to define the reinforcing rail 36
along one edge 59 and the cross rail 72 along the other edge 59'.
The formed sheet 62 exiting the roll-former 61 can again pass
through the welder 63 which effects seam welding along the
reinforcing rail 36 as described above, and in addition the cross
rail section 72 which extends along the other longitudinal edge of
the formed sheet can be fed into a former 77 which effects creation
of the corner 76 so that the cross rail 72 hence extends generally
perpendicularly with respect to the front panel 26. The former 77
may constitute either a bending press or a roll-former, and if the
latter, then such can be incorporated as a part of the principal
roll-former 61.
[0083] The deformed sheet 62' is fed into the cut-off press 64 then
cuts the deformed sheet 62' into the desired lengths, which cut
occurs generally along the line defined by the aligned notches 58
and 58', thereby defining the finished roll-formed member 71. The
presence of the notches 58 and 58' hence permits the cut-off at the
press 64 to occur principally through only the single thickness of
the panel 26, and hence does not require cutting through either the
top rail 36 or the cross rail 72.
[0084] While the invention as illustrated and described above
relates to the use of cross rails having a generally channel or
hat-shaped cross section, it will be appreciated that other known
cross rail configurations, such as Z-shaped or C-shaped cross
rails, can also be utilized and will perform in generally the same
manner as described above. For example, the cross rail 72
roll-formed as an integral part of the front panel 26 can be Z- or
C-shaped in cross section, with the top leg of the Z or C having
its free edge joined at the corner 76.
[0085] The integrated one-piece side panel/cross rail construction
71 of FIGS. 11-12 can also be roll formed with a pair of identical
such panels being simultaneously formed and positioned in
side-by-side relationship, substantially as described above
relative to FIG. 10. When roll-formed in this side-by-side
relationship, the cross rails 72 will preferably be positioned
innermost of the sheet so as to be disposed generally directly
adjacent and on opposite sides of the longitudinally extending
centerline of the sheet. In addition, as illustrated in FIG. 10, a
further elongate notch 60 projecting outwardly from opposite sides
of the sheet centerline will preferably be aligned with each pair
of side notches 58, which notch 60 will extend transversely on
opposite sides of the centerline by a distance so as to project up
to a point at or slightly past the corner 76. The feeding of the
steel sheet through the main roll former results in the forming of
the two side-by-side panels 76 with the channels 72 being generally
coplanar with the panels 26. The roll-formed sheet is then severed
longitudinally along the centerline by the slitter, and then passes
through a subsequent rolling stage, such as depicted at 77 in FIG.
13, which will effect rolling so as to effect creation of the
corners 76 so that the cross channels 72 both protrude upwardly in
generally perpendicular relation relative to the adjacent panels
26. Thereafter the rolled sheet passes through the cut-off press
which effects transverse cutting of the remainder of the sheet
which extends between the side notches 58 and the center notch
60.
[0086] Alternately, the side-by-side roll forming of two one-piece
side panel/cross rail members 71, as described above, can effect
longitudinal severing of the roll-formed sheet at the slitter,
followed by transverse cutting at the cut-off press, with the
individual panel members then being sent to a bending press to
effect creation of the corner 76 so that the cross rail protrudes
perpendicularly from the front panel.
[0087] While the roll-formed front panel 26 is illustrated in FIGS.
8 and 12 with the shelf portion 34 roll formed so as to protrude
outwardly from the base sheet, it will be understood that this
shelf portion 34 can also be roll-formed so as to protrude inwardly
as illustrated by the dotted line showing in FIG. 8.
[0088] In addition, the top rail 36 associated with the front panel
26 can also be roll-formed so as to protrude inwardly relative to
the base sheet, rather than outwardly as shown in FIGS. 8 and 12,
such choice being a matter of overall roll-forming and vehicle box
design.
[0089] Considering now the inner upright side panel 27 (FIGS. 5-6)
of the box assembly 21, this side panel 27 is also preferably
formed as a monolithic one-piece member which is roll-formed in the
lengthwise or longitudinal direction (i.e., the front-to-back
direction of the assembled box). The construction of the
roll-formed side panel 27 is explained below with reference to
FIGS. 14 and 15.
[0090] The side panel 27 includes a main, generally flat, upright
wall portion 81 which extends generally vertically and joins to a
longitudinally-extending shelf portion 82 which is deformed
outwardly relative to the wall portion 81. Shelf portion 82 as
illustrated by FIG. 15 has a generally inwardly-opening
channel-shaped cross section including a generally horizontal
bottom wall 83, the upper surface of which functions as a shelf.
Bottom wall 83 in turn joins to an upright rear wall 84, the latter
joining to an inwardly sloped top wall 85. A generally vertically
oriented intermediate side wall portion 86 projects upwardly from
the sloped top wall 85, and a top reinforcing rail or channel 87 is
spaced upwardly from the shelf 83 and is joined to the upper edge
of the intermediate wall portion 86 and extends lengthwise along
the upper extremity of the side panel 27.
[0091] The top reinforcing channel 87 is defined by generally
parallel and spaced inner and outer upright side walls 88 and 89
respectively, which are joined by a top wall 91 extending
therebetween. The lower edge of outer side wall 89 joins to an
inwardly sloped bottom wall 92 which in turn joins to an upper edge
of the intermediate side wall portion 86. The illustrated
construction results in the wall portions 85, 86 and 92 defining a
shallow outwardly-opening channel cross section which extends
generally vertically between the top rail 87 and the shelf portion
82. In addition, the top rail 87 has a generally downwardly opening
U- or channel-shaped cross section, such open channel shape being
conventionally associated with the inner side panel of the bed
assembly. If desired, the top rail 87 can, as illustrated in FIG.
15A, be roll-formed so as to protrude outwardly relative to the
bed, and/or formed as a closed hollow tube such as associated with
the front panel 26 as described above.
[0092] Side panel 27 is preferably provided with a plurality, here
three, of reinforcing ribs or channels 93 which are deformed
outwardly from the main wall portion 81. The channels 93 extend
lengthwise (i.e. horizontally) throughout the length of the panel
81 and are disposed in generally parallel and vertically spaced
relationship. The panel 81 terminates in a lower
lengthwise-extending free edge 94, with the lower portion of the
panel 91 in the vicinity of the free edge 94 functioning generally
as a securing flange 95 for permitting fixed securement, as by
welding, to an adjacent flange associated with the floor or bed
22.
[0093] The panel assembly 27 also has a conventional wheel well
opening 96 formed therein, which wheel well opening opens upwardly
from the lower free edge 94. The upper edge 97 of the wheel well
opening is preferably disposed at an elevation which is disposed at
least slightly downwardly from the horizontal shelf 83 so that
shelf 83 will normally be at least slightly higher than the top of
the adjacent wheel well housing. The wheel well opening 96 is
preferably surrounded by a flat edge region 98 which is effectively
defined by the exposed face of the flat side wall 81, and which
requires flattening of the reinforcing channels 93 over a small
distance extending away from the edge of the wheel well opening 96.
The edge of the wheel well opening can be provided with securing
flanges (not shown) bent transversely outwardly (i.e. toward the
outer vehicle skin), if necessary or desired, for welded attachment
to the wheel well cover. The opposite ends of the side panel 27 are
also preferably provided with a plurality of flanges 99 which are
bent to project transversely outwardly so that the front flanges
provide securement to the front panel 26 and to the front filler
panel in a conventional manner, and the rear flanges permit
securement to the rear upright.
[0094] The side panel 27 is preferably longitudinally roll-formed
as a one-piece monolithic member utilizing a roll-forming process
which substantially corresponds to that utilized for roll-forming
the front panel 26, as diagrammatically illustrated in FIG. 9. In
roll-forming the side panel 27, however, the notches 58 (FIG. 9)
formed in the continuous sheet for defining the length of the
finished side panel 27 will normally be of greater width so that,
when the panels are transversely cut and separated from the
continuous sheet, the end edges of the panel will have sufficient
excess length so as to permit a subsequent cutting and/or trimming
and/or forming operation to be carried out thereon to permit
creation of the securing flanges 99. In addition, after the panels
27 have been cut to length and discharged from the cut-off press
associated with the roll-former, the roll-formed panels will then
be subsequently processed so as to permit creation of the wheel
well opening 96 and formation of the flattened edge region 98.
These operations can be carried out in one or more stamping and
pressing stations which will preferably permit the edge region 98
to be initially created by flattening of the reinforcing channels
93 over the desired length, followed by cutting out of the wheel
well opening 96, which cut-out will typically be shaped and sized
so as to permit forming of wheel-well-housing attaching flanges if
desired.
[0095] With the roll-forming of the side panel 27 and its being
cut-to-length prior to forming of the wheel well opening therein,
it will be appreciated that the same roll-formed member can be used
to permit forming of both the right and left side panels, and that
the length can be varied by suitable adjustment of the forming line
so as to permit forming of side panels suitable for
different-length boxes.
[0096] In addition, the side panel 27 and specifically the
roll-forming thereof can also be carried out so as to permit the
simultaneous roll-forming of two side-by-side panels utilizing the
same process illustrated and explained above with respect to FIG.
10.
[0097] As a further alternative, the simultaneous roll-forming of a
pair of side-by-side side panels 27 can also be carried out by the
process diagrammatically illustrated in FIG. 16 which utilizes many
of the same reference numerals utilized in FIG. 10 for designating
the corresponding parts.
[0098] More specifically, the roll-former 61 in FIG. 16
progressively deforms the flat continuous sheet 54 such that the
deformed sheet 62 departing the roll former has a configuration
corresponding to a pair of side-by-side oriented side panels 27
disposed with their lower free edges 94 extending generally along
the longitudinal centerline 113 of the formed sheet 62. The welder
63 can be provided if any closed welding of the top rail 87 is
desired, or can be eliminated if an open top rail is provided. The
formed sheet 62 can then be fed into and through a stamping press
111, which press can be of a multiple stage construction so that it
effects punching out of a large opening 112 which is positioned
generally symmetrical with respect to the longitudinal centerline
113 of the formed sheet 62, which opening 112 on opposite sides of
the centerline creates formation of an opening corresponding to the
wheel well 96 which is to be formed in each side panel. The press
111 can also effect flattening of the reinforcing channels 93
adjacent the edges of the opening, and the forming of additional
edge flanges at the opening if desired. The opening 112 is
obviously formed at the desired location with respect to the
programmed length of the side panels, and at programmed lengths
corresponding to the individual side panels.
[0099] Following forming of the opening 112 in the formed sheet 62
and the downward movement of the sheet 62 away from the forming
press 111, the sheet 62 is then fed through the slitter 66 which
creates a longitudinal cut generally along the centerline 113 so as
to effect a separation of the formed sheet 62. The longitudinally
slit sheet 62 is then fed into the cut-off press 64 which effects
the desired transverse cutting of the formed sheet, such as
generally in alignment with each opposed pair of notches 58,
whereby a pair of roll-formed side panels 27 having wheel well
openings formed therein are thus discharged from the cut-off press.
In this situation the side-by-side forming of a pair of side panels
27 which are effectively mirror images of one another hence
automatically creates the desired right and left side panels for
the box assembly.
[0100] As a preferred alternative to the process of FIG. 16 as
described above, the wheel well openings can be formed in the
panels 27 by a conventional stamping press after the panels are cut
to length. The stamping of the wheel well openings can also be
carried out on the cut-to-length sheet either before or after it
has been slit longitudinally.
[0101] Referring now to FIGS. 17-18, there is illustrated a second
embodiment of a box assembly 121, particularly for a pickup truck,
according to the present invention.
[0102] The box assembly 121 again includes a floor or bed 122
supported on a plurality of underlying cross rails such as a front
rail 123, plural intermediate rails 124 and a rear rail 125. An
upright front panel 126 projects upwardly adjacent a front edge of
the bed 122, and a side panel 127 projects upwardly adjacent each
side of the bed, with a wheel well housing 128 cooperating between
each side panel 127 and the respective side portion of the bed 122.
The rear edge of the side panel cooperates with an upright or post
129.
[0103] In the box assembly 121, the bed 122 is defined by multiple
bed sections, including a main center bed section 131 which extends
lengthwise throughout the full length of the bed but has a width
which is sized so as to extend generally only between the wheel
wells, whereby the center bed section 131 has a generally
rectangular profile in plan view. The opposite sides of the bed are
in turn completed by side bed sections 131A, with each section 131A
being defined primarily by front and rear side bed portions 132 and
133, respectively, which are disposed respectively forwardly and
rearwardly of the wheel well cover 128, and extend sidewardly from
the side panel or wall 127 to the center bed section 131.
[0104] In this variation of the box assembly, the side panel 127,
the wheel well cover 128 and the bed panel section 131A may be
formed as a monolithic one-piece construction 135 which is
conventionally referred to as an inner quarter panel, which
one-piece construction 135 can be formed as a stamped member. Such
stamped inner quarter panel, as depicted by FIG. 3, is known. In
the present invention, however, this one-piece inner quarter panel
135 is also preferably provided with a shelf portion 136 formed
therein at a location directly above the wheel well cover 128, but
downwardly of the top reinforcing rail or channel 139. The shelf
portion 136 defines a generally flat bottom wall 137 which faces
upwardly and extends horizontally throughout the length of the side
panel 127 so as to effectively merge with a similar horizontal
shelf 35 which is associated with the front panel 126.
[0105] As to the front panel 126, it is preferably a monolithic
one-piece roll-formed panel which is identical to either the panel
26 (FIGS. 7-8) or panel 71 (FIGS. 11-12) described above, whereby
further description thereof is believed unnecessary.
[0106] With respect to the center bed panel 131, it is preferably
defined by a monolithic one-piece member which is roll-formed in a
longitudinal direction from sheet steel. The bed member 131, in
transverse cross section, is defined by a plurality of generally
parallel and sidewardly spaced raised channels or ribs 141 (FIGS.
19-20) which alternate with intermediate valleys or depressions
142. Each raised channel 141 is defined by a generally flat top
wall which joins through downwardly sloped and appropriately
rounded side walls 144 to generally flat base walls 145 which
define the bottoms of the valleys or depressions 142. The base
walls 145 are adapted to be supportingly engaged on and fixedly
joined, as by spot welding, to the top flanges associated with the
underlying support or cross rails 123-125.
[0107] As illustrated by FIGS. 19-21, the center bed panel 131,
along each of the longitudinally extending side edges thereof, is
provided with a roll-formed edge channel 146 which in shape and
size generally corresponds to one of the raised channels 141 except
that the edge channel 146 effectively constitutes only one-half of
one of the channels 141. The top wall 143' of the edge channel 146,
which top wall 143' is approximately one-half the width of the top
wall 143, is provided with a tightly rounded corner or bend 147
which projects downwardly and joins to a downwardly cantilevered
edge flange 148, the latter terminating at a lower free edge 149.
The edge flange 148 projects downwardly in approximately
perpendicular (i.e. vertical) relationship from the top wall 143',
and the flange 148 has a height as measured from the top wall 143'
to the bottom edge 149 which is substantially greater than the
height defined between the upper surface of wall 143 and the lower
surface of base 145. The significantly greater height of this
flange 148 provides two functions in that it provides increased
stiffening strength in the longitudinal direction of the bed
member, particularly at the edge joint, and it also facilitates
welding of this flange 148 to an adjacent similar flange 156 (FIG.
20) provided on the adjacent side bed portion 131A.
[0108] According to the present invention the flange 148 associated
with each side of the center bed member 131, as well as each flange
156 associated with each side bed section 131A, is provided with an
upwardly opening recess 157 (FIG. 19) formed therein at a location
corresponding to each of the cross rails 123-125. The recess 157 is
longitudinally elongated so as to comfortably accommodate therein
the top flanges associated with the cross rail, as illustrated in
FIG. 19, but at the same time the upward cut-out defined by the
recess 157 preferably terminates short of the bend or corner 147 so
as to permit at least a small downward extent of the flange 148 to
remain and define the upper edge of the recess 157 and hence still
provide some reinforcement for the edge of the bed member where it
is positioned directly over the cross rail. The provision of the
special half-width edge channel 146 and its downward flange 148,
and the provision of the rail-accommodating recess 157 in the
flange 148, hence provide for increased reinforcement of the edge
of the center bed section 131, at the same time facilitating
attachment to the adjacent side bed sections, and further
eliminating the need to provide clearance recesses in the cross
rails, the latter being a conventional practice.
[0109] As illustrated by FIG. 20, each side bed section 131A as
associated with the one-piece inner quarter panel 135 is also
preferably provided with an edge channel 155 formed along the inner
longitudinally extending edge thereof, which edge channel 155 is
formed during stamping of the inner quarter panel 135, but which in
cross section generally correspond to the edge channel 146
associated with the center bed section 131. Thus, when assembled,
the adjacent edge channels 146 and 155 as shown in FIG. 20 hence
effectively provide a size and appearance generally similar to that
associated with the channels 141 defined by the center bed section
131.
[0110] As illustrated by FIG. 21, the side bed section 131A
associated with the inner quarter panel, such as depicted by the
side bed section 133, can have a flange 158 associated therewith if
desired in the event that the side and floor panel sections of the
inner quarter panel are formed separately from the wheel well
housing. The flange 158 can be used to effect welded securement to
a separate wheel well housing.
[0111] The side bed section 131A, as shown in FIG. 20, also
typically has one or more longitudinally-extending ribs or channels
154 formed thereon so as to reinforce the bed section.
[0112] A third embodiment of the invention is illustrated by FIG.
22. The vehicle box assembly 161 illustrated in exploded view in
FIG. 22, when assembled, will have the same appearance as shown by
FIG. 18. The box 161 of FIG. 22 utilizes many of the same
constructional features utilized in the box assembly of FIGS.
17-18, and hence corresponding parts thereof are identified by the
same reference numerals and will not be separately discussed.
[0113] The principal difference between the box assembly 161 of
FIG. 22 and the box assembly 121 of FIGS. 17-18 is the fact that
the box assembly 121 (FIGS. 17-18) utilizes a one-piece
press-formed inner quarter panel 135 for defining side panel 127,
wheel well housing 128 and side bed section 131A. In contrast, the
box assembly 161 of FIG. 22 utilizes a two-piece construction for
defining these same functional members, namely a monolithic
one-piece roll-formed panel member 162 which defines both the side
panel 127' and the side bed section 131A' (herein referred to as an
integrated side/floor panel member), and a separate one-piece wheel
well housing 128 which is typically of a one-piece stamped
construction.
[0114] The upright side panel 127' defined by the roll-formed
integrated panel member 162 is identical to the side panel 27
discussed above relative to FIGS. 14-15. The side bed section 131A'
defined by the integrated panel member 162 is roll-formed in the
longitudinal direction so as to be preferably provided with one or
more upwardly projecting reinforcing ribs or channels extending
longitudinally thereof, and is additionally provided with a
downwardly-projecting securing flange 156 extending along the free
edge thereof.
[0115] Referring to FIG. 23, there is diagrammatically illustrated
an economical and high production rate process for simultaneously
roll forming two quarter panels 162 in side-by-side relationship as
the panels are sequentially roll formed in the lengthwise direction
of the sheet.
[0116] In this process, a wide but flat and substantially
continuous metal (i.e. steel) sheet 54A is withdrawn from a roll
51A supported on the cradle 53A, with the sheet 54A being fed into
and through a notcher 57A which in this embodiment creates pairs of
aligned notches 58 which project inwardly from opposite edges of
the sheet at predetermined intervals therealong. The notched sheet
54A then passes into and through a rolling mill 61A which, through
a plurality of different roll stages, effects reshaping of the flat
sheet so that the sheet 62A leaving the rolling mill 61A is
deformed so as to have a cross section which, as illustrated in
FIG. 24, will ultimately yield pairs of generally identical or
symmetrical quarter panels at defined distances therealong.
[0117] The flat metal sheet during roll forming thereof within the
rolling mill 61A is shaped, as shown in FIG. 24, to define a pair
of adjacent and identical inner or floor panel sections 131A' which
are transversely joined so as to be disposed on opposite sides of
the longitudinal centerline or center plane 113'. These floor panel
sections 131A' in turn join to identically shaped outer or side
panel sections 127'. Each side panel section 127' has reinforcing
ribs 93, shelf 137 and outer rail (i.e. top rail) 139 roll formed
so as to extend longitudinally along the roll formed sheet. The
floor section 131A' and the side panel section 127' are still in a
generally flat relationship to one another, with the reference line
166' being a location at which subsequent bending will occur.
[0118] In this illustrated embodiment the adjacent floor panel
sections 131A' are joined together by a center rib or channel 181
(FIG. 25) having a width, as defined by the top wall 182,
substantially greater than the width of the adjacent ribs or
channels 154 associated with the floor panel sections. This
increased width of the center channel 181 enables subsequent
severing or cutting lengthwise along the longitudinal center line
113', with the cut edge portions at this centerline being
subsequently bent downwardly to define edge flanges 156
substantially as indicated by dotted lines in FIG. 25. These edge
flanges 156 are associated with a resulting rib or channel 155
which is a partial, typically a half, width channel for cooperation
with the roll-formed center floor panel to provide a construction
corresponding to that illustrated by FIG. 20.
[0119] The roll formed continuous sheet 62A, after departing the
rolling mill 61A (FIG. 23), is fed into and through a cut off
device 64A, such as a flying die, which transversely cuts the
deformed sheet generally along a line which aligns with the pair of
opposed notches 58 to create a cut-off or severed roll formed blank
162F. The blank 162F is then supplied to a work station 171 which
effects cutting or slitting of the blank 162F longitudinally along
the centerline 113' throughout the length thereof so that the blank
162F is severed into two blank pieces 162F' which are substantially
identical but disposed sidewardly adjacent in mirror image
relationship. The severed blank pieces 162F' are then fed to a
forming or rolling station 172 which engages the lengthwise edges
of the severed blanks, namely the edges created by the centerline
slitting, so as to progressively deform this edge to create the
downwardly-turned edge flange 156. The edge-flanged blank members,
either individually or jointly, are then supplied to a hole forming
station 173, such as a die press, which can either individually or
simultaneously act on one or both of the blank members to effect
forming of the wheel well openings 163 therein, as well as any
other required openings or notches. This forming or pressing
station 173 will also normally effect trimming of the end edges of
the blanks, and the shaping or cutting of any desired flanges as
associated with the wheel well opening and/or the end edges of the
blank. The blanks 162F', either individually or simultaneously, are
then transferred to one or more forming stations 174 which
cooperate with the blank to effect suitable reshaping of the
flanges, such as bending or cold working, so that the flanges
project transversely relative to the respective panel portion. The
formed blank, having openings formed therein and flanges formed and
shaped thereon, is then fed to a bending station 175, such as a
bending or wing press, which effects relative bending of the floor
portion 131A' and side panel portion 127' toward one another
generally about the region 166' so as to cause these portions to
project in generally perpendicular relationship to one another. The
roll formed and shaped panel member 162 is then discharged from the
press 175 and possesses the structural shape and connections
required for its assembly as part of a vehicle bed arrangement.
[0120] In the process described above, the blank 162F' is
preferably severed and the edge flanges 156 formed thereon prior to
punching of the wheel well openings since the edge flanges 156
provide significant reinforcement along the longitudinal edge of
the floor section, which is highly desirable inasmuch as the
punched wheel well opening extends sidewardly to a location wherein
it is positioned closely adjacent this edge flange.
[0121] As a modification of the roll formed profile illustrated by
FIGS. 24-25, the enlarged center channel 181 can be replaced by a
narrower but deeper center channel 183 as illustrated in FIG. 26.
With this arrangement, the roll formed blank can be longitudinally
severed by effectively removing the bottom wall 184 of the channel
183, whereby the side walls of the channel 183 then effectively
function as the edge flanges 156. The bottom wall 184 can be
removed by a double cutting wheel which can effect longitudinal
severing downstream of the rolling mill 61A, but upstream of the
cut off device 64A. Alternately, the bottom wall 184 can be removed
by means of a punching operation, which punching operation can be
carried out at the forming station 173 by punching out the bottom
wall 184 substantially simultaneously with the punching of the
wheel well openings 163.
[0122] The one-piece roll-formed integrated panel member 162 can be
roll-formed utilizing a process which substantially corresponds to
that illustrated by FIG. 9 so as to permit roll-forming of the side
panel 127' and the floor section 131A' as a generally continuous
roll-formed flat sheet, which is then cut to the desired length,
with the cut-to-length roll-formed panel then being subjected to a
separate punching operation, such as in a stamping press, to effect
forming of a wheel well opening 163 therein. The wheel well opening
163 will include a first portion 164 intended to project upwardly
into the side wall portion 127, and a further opening portion 165
intended to project into the bed section 131A'. The stamping or
pressing operation can also effect trimming of the end edges of the
panel, and the forming of attachment flanges both at the end edges
and at the wheel well opening. Preferably after forming of the
opening 163, then the generally flat roll-formed integrated panel
member 162 is then subjected to a further forming operation, such
as in a bending press, to permit bending of the corner or bend 166
so as to cause the floor section 131A' to project in generally
perpendicular relationship to the side panel 127'.
[0123] Alternatively, the roll-formed one-piece integrated panel
member 162 can be roll-formed using a process similar to that
illustrated by FIG. 13, with the notches 58 associated with one
side edge of the continuous sheet 54 being sized to accommodate the
reinforcing rail 139 along the upper edge of the side panel 127',
and the notches 58' provided on the other edge of the sheet
material 54 being sized to accommodate the width of the roll-formed
bed section 131A'. The roll-formed sheet, in a generally flat
condition, will hence exit the roll-former 61 (FIG. 13) and, at the
bending or roll-forming device 77, the bed section 131A' can be
bent or roll-formed upwardly to define the corner 166 and hence
create a generally perpendicular relationship between the side
panel 127' and the contiguous bed portion 131A'. When using this
latter roll-forming process, then the opening 163 for the wheel
well will preferably be stamped into the roll-formed panel member
at an in-line station located downstream of the roll-former 61 but
upstream of the former 77.
[0124] With the box assembly 161 illustrated by FIG. 22, all of the
critical panels including the front panel, the side panel and the
floor panels are all effectively roll-formed so as to provide
economies with respect to material usage, finished box assembly
weight, part manufacture, and assembly of the box. The wheel well
housing 128 is the only principal stamped component, which
component is welded in a conventional manner around the edges of
the wheel well opening 163 formed in the shaped one-piece
roll-formed integrated panel member 162.
[0125] When roll-forming panels for the box assembly in accordance
with the present invention, it will be recognized that the width of
the flat steel sheet, as provided in the coil, will substantially
correspond to the width of the finished panel if flattened out into
a planar condition, whereby trimming of the sheet or of the
finished panel is generally unnecessary, and minimal usage of sheet
material is achieved. Further, the roll-forming of the critical
panels effectively eliminates or at least greatly minimizes
stretching (i.e., thickness reduction) of the sheet during shaping
of the panel, whereby a steel sheet of reduced thickness can hence
be initially utilized to permit forming of the panel, particularly
in comparison to stamped panels, and the resulting roll-formed
panels are substantially of uniform thickness throughout. This
hence minimizes the finished weight of the panel, reduces material
costs, and greatly simplifies required tooling which significantly
reduces tooling costs, and at the same time provides tooling having
a significantly greater degree of flexibility. As to the actual
design of the roll-former, it will be appreciated that the design
of roll-formers involves the application of conventional techniques
known to those of ordinary skill in the roll-forming art, whereby
further description and explanation of the roll-former is believed
unnecessary.
[0126] Referring now to FIGS. 27-30, there is illustrated a box
assembly 210 according to another embodiment of the invention. The
box assembly 210 incorporates many of the desirable features
described above, but is believed to provide improved overall
structural properties and economics by permitting the bed floor and
the inner right and left side wall panels to be defined by and
assembled from only two monolithic one-piece integrated side/floor
panel members. The two panel members are preferably formed by roll
forming a thin metal (i.e. steel) sheet, whereby only a single
roll-formed panel configuration is required. Subsequent forming
operations, such as punching or die forming, carried out on the
roll-formed configuration then create right and left panel members
which can be assembled to define both the floor and the opposed
side panels of the box assembly.
[0127] The box assembly 210 (FIG. 27) includes a floor or bed 211
extending sidewardly between opposed upright sidewall panels 212
which, due to their right and left disposition, are typically
substantially mirror images of one another. In this construction,
the floor 211 and sidewall panels 212 are defined and formed by two
preformed monolithic one-piece integrated side/floor panel members
215R and 215L which define the respective right and left sides of
the box assembly throughout the lengthwise extent thereof, with the
preformed panels 215R and 215L being substantially identical except
for being substantially mirror images (i.e. right and left panel
members).
[0128] The right panel member 215R as shown in FIG. 29 includes a
floor section 216 which joins through a lengthwise extending bend
or corners 218 to an upright side panel section 217 so that
sections 216 and 217 extend in generally perpendicular relation and
define an L-shaped cross section. The floor section 216, when the
opposed panels 215R and 215L are seated on a plurality of
conventional cross rails (one shown at 219) is fixed to the cross
rails, such as by welding.
[0129] The floor section 216 is preferably provided with one or
more raised reinforcing channels or ribs 221 extending in parallel
throughout the length thereof. The ribs 221 define valleys or
recesses 222 therebetween as defined by a base wall 223. A
down-turned edge flange 224 extends lengthwise along the free edge
of the floor section 216. This flange 224, in the preferred
embodiment, extends substantially along the lengthwise-extending
upright center plane or centerline 225 of the box assembly. The
floor section 216 in the illustrated embodiment has a base wall 226
which adjoins the edge flange 224, and has a width about one-half
the width of base wall 223 so that the adjacent base walls 226 when
assembled as shown in FIG. 27 define a substantially normal width
recess 222 thereabove.
[0130] The floor section 216 also includes a base wall section 227
which adjoins the corner 218. This base wall section 227 has a
width which equals or slightly exceeds the width of the wheel well
opening 228 (FIG. 30) which is formed in the panel member, which
opening 228 is closed in a conventional manner by a separate wheel
well housing 229. This base wall section 227 can also be provided
with one or more raised reinforcing ribs 239 extending lengthwise
thereof if desired.
[0131] In the preferred embodiment as described above, the overall
width of the floor section 216, as defined between the edge flange
224 and the corner 218, is substantially one-half of the overall
width of the floor 211.
[0132] Considering now the side wall section 217, it has a
reinforcing rail 231 extending lengthwise along the upper edge
thereof. This rail is defined by a downwardly-oriented
channel-shaped structure, the one leg 232 of which defines the free
edge of the metal sheet which forms the panel member 25. The top
rail 231 can have either a rounded or a rectangular shape. A shelf
structure 233 is formed in the sidewall section 217 and is spaced
downwardly from the top rail 231 and extends parallel therewith
throughout the lengthwise extent of the panel section. This shelf
structure 233 defines thereon a narrow horizontal shelf or wall 234
which is accessible from the interior of the box assembly.
[0133] Sidewall section 217 also preferably has one or more
reinforcing ribs or channels 237 which extend lengthwise of the
panel section and are deformed from the base panel wall 236.
[0134] The forming of the panel members 215R and 215L for creating
a box assembly 210, according to a preferred process, will now be
described with reference to the flow chart of FIGS. 31-32.
[0135] A thin and substantially continuous flat metal (i.e. steel)
sheet 241 is fed from a coil (as illustrated in FIG. 9) to a
notching device 242 which, at predetermined distances along the
sheet, corresponding substantially to the length of the panel
member 215, forms a slot or notch 243 which opens inwardly from the
sheet edge 244 through a distance sufficient to compensate for
forming of the top rail 231. The other sheet edge can also be
notched to compensate for the edge flange 224, but such is normally
not necessary. The notched sheet 241 is then fed into and through a
multi-stage rolling mill 247 which, as described above, effects
progressive deforming of the sheet so that the sheet on exiting the
rolling mill has a cross-sectional profile as illustrated in FIG.
28. In the deformed condition, the sheet has the rail 231 extending
along one edge thereof, and the edge flange 224 extending along the
opposite edge thereof.
[0136] The deformed continuous sheet is then fed to a cut-off press
248 which perpendicularly cuts across the sheet in alignment with
each of the notches 243, thereby creating separate flat but
deformed panel members 215.
[0137] The identical panel members, as roll formed, are then
subjected to subsequent forming steps, as diagrammed in FIG. 32, to
create the right and left panels.
[0138] More specifically, the panels are then fed into presses 251R
and 251L which form the wheel well opening 223 in the panel. Since
this opening is typically not located at a lengthwise midpoint of
the bed, separate right and left panels must be formed. The presses
251R, 251L also will typically effect other trimming, such as at
the end edges of the panel, and shaping of attachment flanges at
the ends and at the opening. Presses 251R, 251L may be separate or
combined.
[0139] The panels are then acted on at subsequent forming dies or
presses 252R, 252L which effect shaping of the attachment
flanges.
[0140] The panels discharged from tools 252R, 252L are then sent to
and acted on by presses (i.e. wing presses) 253R, 253L which cause
bending or rolling to effect forming of the corner 218 so that the
floor and side sections 216, 217 project perpendicularly in an
L-shape. The finished panels 215R and 215L are then discharged from
the presses 253R, 253L.
[0141] The pair of panel members 215R and 215L can then be
positioned on a plurality of parallel cross rails in opposed
relationship so that the opposed edge flanges 224 substantially
abut, as shown in FIG. 27. The abutting edge flanges 224 are welded
together, and the floor sections of the panel members are welded or
otherwise fixed to the cross rails. The abutting edge flanges 224
effectively extend along the lengthwise centerline of the floor.
The edge flanges 224 can be recessed at locations corresponding to
the cross rails, or alternately the cross rail can be provided with
a clearance notch to accommodate the edge flanges.
[0142] With a bed assembly constructed as defined above, the front
of the bed may be closed by use of any conventional front panel,
but use of a rolled formed front panel as disclosed herein, such as
shown in FIG. 8, is preferred.
[0143] With this embodiment of the invention (FIGS. 27-30), the
panel member 215R, 215L is a monolithic one-piece member formed
dominantly by roll-forming from thin metal sheet, with only a
single roll-formed configuration being required to permit
subsequent forming of right and left panels which are substantially
identical but mirror images.
[0144] While the two panel members are preferably joined at the
centerline by abutting edge flanges, it will be recognized that the
adjacent edges of the right and left panel members could be
slightly elevationally different (rather than flanged) so as to
overlap one another to create a lap joint. Such joint, however, is
believed less desirable than the edge flange joint described
above.
[0145] The process illustrated by FIGS. 31 and 32, as described
above, is also obviously applicable to permit forming of the
integrated side/floor panel 162 shown in FIG. 22.
[0146] The roll-forming of the principal panels such as the side
and front wall panels as well as the floor panels associated with
the box assembly, as described above, is also advantageous inasmuch
as this enables the panels to be more readily formed using high
strength steel sheets, particularly steel sheets having a yield
strength in the range of from 50,000 psi to about 100,000 psi. High
strength steel sheets can be more readily shaped and deformed by
roll-forming so as to provide panels having the desired
three-dimensional contour, specifically permitting use of deeper
draws or formations than is typical with stamping, thereby
additionally providing design opportunity to utilize thinner
materials and provide greater weight reduction while also providing
more severe (i.e. deeper) three-dimensional shapes.
[0147] It will be appreciated that roll-formed panels for use in a
truck box, such as disclosed herein, can be and typically are
provided with various attachment flanges. For example, flanges are
typically provided on the edge of either the front panel or the
side panel for permitting securement at the front corners of the
box assembly, on the rear edge of the side panel for securement to
the rear post, and around the wheel well opening when a separate
wheel well housing is utilized. Such flanges can be formed, trimmed
and shaped as desired utilizing conventional pressing and shaping
dies, whereby further detailed description relative to such flanges
is believed unnecessary.
[0148] In the improved box assembly of this invention, the
provision of the lengthwise shelf on the front panel, and the
lengthwise shelves on the side panels, which front and side shelves
horizontally align and communicate with one another at the front
corners of the box, hence provide a support platform which extends
around three sides of the bed at an elevation above the wheel well
housings, but below the top rails of the front and side panels.
This support platform hence can be used to permit attachment of a
cover such as a tonneau cover or cap, or permit the ends of raised
cross supports to be supported on the side shelves at any location
therealong, or permit a horizontal divider platform (such as a
plywood sheet) to be supported thereon so as to divide the cargo
compartment of the box into upper and lower compartments.
[0149] When forming large openings in roll formed panels, such as
wheel well openings in side panels as described above, it will be
understood that the opening can be punched into the continuous
sheet at a location upstream of the roll mill. Such punching
operation, using either a flying die or a static die, effects
formation of a developed opening, that is, an opening which is
oversized to compensate for the subsequent deformation of the sheet
during rolling. Forming the opening after roll forming, however, is
normally preferred.
[0150] The shelf on the roll-formed front and side panels as
described above, for example as illustrated by FIG. 8, can be
formed so as to project in perpendicular relation to the vertical
wall of the panel, thereby resulting in the upper support surface
defined on the shelf being horizontal and hence free of any
significant sideward slope, other than any small slope which may be
desired for water run-off.
[0151] The overall assembly of the box utilizing the improved
panels of this invention is, for the most part, conventional
whereby further description thereof is believed unnecessary.
[0152] Although particular preferred embodiments of the invention
have been disclosed in detail for illustrative purposes, it will be
recognized that variations or modifications of the disclosed
apparatus, including the rearrangement of parts, lie within the
scope of the present invention.
* * * * *